SU670930A1 - Device for shaping symbol codes - Google Patents

Description

one

The device relates to the field of computer technology, in particular to input devices, and can be used in computer-aided design systems.

A device for generating symbol codes 1 is known, comprising a generator, a reading unit, a register, and a control unit.

A disadvantage of the known device is the lack of accuracy in the formation of symbols.

The closest, essentially technical solution is a device for generating character codes, comprising a generator, a pickup element with an inductive coil connected to a generator, a reader unit, inductively coupled to an inductive coil of a writing element, a register, a control unit, the first output of which is connected to the register reset input, - a block of permanent memory, the input of which is connected to the second output of the control unit; a comparison unit, the first and second inputs of which are connected to the outputs of the register and the constant unit memory, respectively, with a control unit connected by a two-way communication, and a interface unit, connected by two-way communication with the control unit and an electronic computing machine (computer), the first input of the interface unit is connected to the output of the comparison unit, and the second input - to the output of the block of permanent memory 2J.

A disadvantage of the known device is the low speed and limited character set.

Thus, the aim of the invention is to improve the speed and the expansion of the field of application.

This goal is achieved in that the device contains two motion direction formation units and a motion direction analysis unit connected by two-way communications with two lower register bits, the first and second inputs of the motion direction analysis unit are connected to the outputs of the motion direction formation units, inputs which are connected to the corresponding outputs of the readout unit, as well as the fact that the unit for forming the direction of movement contains amplifiers-formers, the inputs of which are connected to the block inputs, the first group of elements AND, whose inputs are connected to the corresponding outputs of the driver amplifiers, controlling the trigger, the single inputs of which are connected to the outputs of the elements AND of the first group, the second

a group of elements AND whose inputs are connected to the outputs of control triggers and the corresponding outputs of elements and the first group, elements OR whose inputs are connected to the corresponding outputs of elements AND of the second group, and outputs to the zero inputs of the corresponding control triggers, two trigger signs, outputs which are connected to the outputs of the block and two OR, the inputs of which are connected to the corresponding outputs of the elements AND of the second group, and the outputs - with the corresponding single and zero inputs of the trigger points.

FIG. 1 shows the spelling and encoding options for the letter in FIG. 2 is a block diagram of an apparatus for generating character codes; in fig. 3 is a functional block diagram of the formation of the direction of movement; in fig. 4 - distribution of the magnetic field induced by the inductor.

The essence of the method implemented by the proposed device is as follows.

As can be seen from FIG. 1, when the letter "a" is drawn, a strictly defined sequence of changes in the directions of the end of the writing rod (Fig. 1a) is made, which remains constant for different handwritings and ways of writing characters (Fig. 1d, 1d). If this image is divided into sections (Fig. 16), then the directions of movements in each section will be determined by the table (Fig. Is). For option 1, the patterns in the table will be missing sections 56 and 67. Thus, we have here two options for the lettering of characters that can be represented as mashynnyh words (Fig. 1e and g). An analysis of the variants of the typefaces of all letters and numbers showed that this form of presentation is characteristic of all alphanumeric characters, while ambiguity is observed only when they are carelessly written (for example, when there are no 01 and 12 sections in the symbol, it reads as a symbol.

Thus, it is obvious that in order to form a symbol code, it is enough to generate a code of a sequence of changes in the direction of movement of the end of the ping rod when it is drawn. To do this, it is necessary to know the direction of movement on this and previous measures on each stroke in order to enable analysis of the presence of changes in the direction of movement of the squeezing rod.

The device shown in FIG. 2, contains a generator 1, a writing element with an inductive coil 2, a readout unit 3, a motion direction forming unit 4, a motion direction change analyzing unit 5, a register 6, a comparison unit 7, a permanent memory unit 8, a control unit 9, and a unit interface 10. The unit for forming the direction of movement includes amplifiers-formers 11, the first group of elements AND 12, control triggers 13, elements OR 14, the second group of elements AND 15, the first element OR 16, the second element OR 17, the first trigger tag 18 and the second trigger tag 19.

A device for generating symbol codes operates as follows.

The gating pulses produced by the generator 1 (Fig. 2) are fed to the inductive coil of the writing element 2. The magnetic field induced by the coil induces an electromotive force (EMF) in the coordinate system of the reading unit 3. The amplified and normalized in amplitude and duration pulses read from coordinate women, go to the blocks of formation of the direction of movement 4 along the axes X and Y. From the outputs of the blocks of forming the direction of movement 4 along the axes X and Y, the value of the direction of motion goes to the block of analysis of the change of direction motion 5, in which a change in the direction of motion at least in one coordinate as compared with the previous time instant is analyzed. Information about the direction of movement along both coordinate axes at the previous moment of time is stored in the 2 lower bits of register 6. When the direction of movement is changed, block 5 issues a command to shift the contents of register 6 by two bits to the right. Next, the corresponding values of the changes in coordinates from blocks 4 to the lower two bits of register 6 are overwritten. After the generation of the character code is completed, a comparison is made in comparison block 7 of the contents of register 6 and symbol codes from the permanent memory block S. If the code does not match the character from the block of permanent memory 8, the signal "is not equal from the output of the comparison block 7 enters the interface block 10 of the communication with the computer and sets to" O the register 6. If the codes coincide, the signal "is equal from the comparison block 7 control unit 9, which generates the installation signal in the "About register 6 and signal" exchange request, which through the interface unit 10 enters the computer. When the signal “permitting the exchange from a computer” arrives, the symbol code is transmitted in the DKOI or ISO code in the computer through an interface block 10. This code is read from the persistent memory block b at the same time as the standards of the character codes and enters the exchange register of the interface block 10. After this, the operation cycle of the device is repeated.

The operation of the motion direction forming unit is carried out as follows. Let the magnetic field captures tires from the second and third groups. Then the current pulses induced in the tires are extracted and amplified and normalized in amplitude and duration by the amplifier-formers 11 are fed to the element AND of the first group of elements AND 12 and from its output to the single installation input of one of the control triggers. in a single state. By moving the inductor to the right, i.e., to induce pulses in the tires of the third and first groups, WE set the other control trigger to one state. At the same time, the pulse arrives at one input of one of the elements AND of the second group 15, to the second input of which a high potential has already been supplied from the output previously set to the one state of the control trigger. From the output of the element And the second group, the high level enters the input of the second element OR 17 "more and from the output of it to the single installation input of the second trigger of the sign 19" more. Setting the second trigger of the sign 19 “more means moving to the right. After the trigger 19 is set to be larger by the signal, which comes from the AND element of the second group 15 through the OR element of group 14, the control trigger is set to the state "O." With further movement to the right, the pulses coming from the elements of the second group (the signal “more”) confirm the single state of the second trigger of the sign 19 “more. When the inductor is moved to the left, i.e., when the inductor zone captures the area of the tires of the second and third groups, the following process occurs: the signals from the amplifiers-formers 11 to the input of the AND element of the first group 12 are set to one control trigger; high levels of the signal coming from the element AND of the first group and the previously installed control trigger, switch the element AND the second group 15, the signal from the output of which through the first element OR 16 "less is fed to the unit installation input of the left the trigger of sign 18 is less, it is set to a single state, and the zero input of the second trigger of sign 19 is more, it is set to “O. The signals from the outputs of the unit arms of the trigger 18 signs are smaller and 19 more are received in block 5 (Fig. 2) of the analysis of the change in the direction of motion.

When the direction of movement is changed, the operation of the block is carried out as described above.

The proposed device allows for the possibility of forming character codes and identifying them in the process of writing, as well as increasing the speed and reducing the amount of equipment necessary for recognizing character codes.

In addition, the proposed device makes it possible to eliminate the cost of computer time for character recognition in a computer.

Claims (2)

1. A device for generating symbol codes, comprising a generator, a pickup element with an inductive coil connected to the generator, a reading unit inductively coupled to the inductive coil of the writing element, a register, a control unit whose first output is connected to the reset input of the register, a constant unit memory, the input of which is connected to the second output of the control unit, the comparison unit, the first and second inputs of which are connected to the outputs of the register and the fixed memory unit, respectively, and connected to the control unit sided bond and interface unit coupled bilateral bonds with the control unit and the computing machine, the first input interface unit connected to the output of the comparator unit, s second input to the output of the permanent memory unit, characterized in that, in order to increase speed and expand the scope of application, it contains two motion direction forming units and a directional motion analysis unit connected by two-way communications with two lower bits of the register, the first and second inputs of the motion-change analysis block are connected to the outputs of the motion-shaping units whose inputs are connected to the corresponding outputs of the block reading. 2. The device according to claim 1, characterized in that the block forming the direction of movement contains amplifiers-shapers, the inputs of which are connected to the inputs of the block, the first group of elements And the inputs which are connected to the corresponding outputs of the amplifier-shapers, control triggers, single inputs of which are connected to the outputs of the AND elements of the first group, the second group of elements And, the inputs of which are connected to the outputs of the control triggers and the corresponding outputs of the elements AND of the first group, the elements OR, the inputs of which are connected to the corresponding outputs of the elements And the second group, and the outputs - to the zero inputs of the corresponding control triggers, two signs triggers, the outputs of which are connected to the outputs of the block and two OR elements, whose inputs are connected to the corresponding outputs of the AND elements of the second group, and the outputs with the corresponding single and zero inputs triggers signs. Information sources, taken into account during the examination 1. USSR author's certificate No. 327501, cl. G 06K 11/00, 1971. 2. USSR Copyright Certificate No. 2696E8, cl. G OK 9/16, 1970. 3 b 5. STa5l. lOOlOOOiiOllO .U Rig.2 , In the ring